KR20100000619U - 3 3 path boiler using solid fuel - Google Patents

Abstract

The present invention can increase the thermal efficiency by heating the heating tank in three stages of the combustion gas, easy to maintain by integrally configuring the main part, and in the spiral body the combustion gas has a cyclone form and flows downward, so the specific gravity This high dust sinks downwards, providing a three-pass boiler using solid fuel to minimize dust emissions to the atmosphere.

A three-pass boiler using solid fuel according to the present invention includes a boiler including a combustion chamber for burning solid fuel, comprising: first and second heating tanks; A first combustion gas pipe including at least one pipe passing through the first heating tank and configured to pass combustion gas combusted by the solid fuel; A spiral body spirally formed along an outer circumferential surface or an outer circumferential edge of at least a portion of the second heating tank to allow the combustion gas to flow downward in a spiral shape; And at least one tube penetrating the second heating tank in the spiral body, and may include a second combustion gas tube for discharging the combustion gas passing through the spiral body to the atmosphere.

Boiler, Pellet, Heating Tank

Description

3 PATH BOILER USING SOLID FUEL}

The present invention relates to a three-pass boiler using a solid fuel, and more particularly to a three-pass boiler using a solid fuel that can be used for hot water or heating by heating the water using a solid fuel.

In general, a boiler heats water with heat generated by using electric energy, solar heat, fossil fuel, and solid fuel, and then heats the water as the hot water circulates through each pipe of the heat source. It is a device that can be used directly.

Among them, a boiler using solid fuel is disclosed in Korean Laid-Open Patent Publication No. 2001-0104761, and FIG. 1 is a configuration diagram of a solid fuel supply device and a boiler using the same according to the prior art.

Solid fuel supply apparatus and a boiler using the same according to the prior art hopper 41, the screw 31, the ignition device 24, the ignition burner 23, the vertical exhaust pipe 26, the horizontal exhaust pipe 25, And a combustion blower 14, a communication 13, a water outlet 12, and a heating tank 22.

2 is a cross-sectional view of the A-A showing the solid fuel supply device and the communication with the heating tank of the boiler using the prior art, it is composed of the heating tank 22 and the communication 13 in the main body 10.

When the solid fuel is introduced through the hopper 41, it is supplied into the combustion chamber by the rotating screw 31, and the ignition burner 23 operated by the spark from the ignition device 24 ignites the injected solid fuel. Let's do it. On the other hand, the combustion blower 14 is operated to help complete combustion of the solid fuel, and the horizontal blower 25 and the vertical blower 26 connected thereto provide air into the combustion chamber. Although not shown, the cold water introduced through the inlet pipe is discharged to the outlet pipe 12 through the heating tank 22, and the combustion gas generated from the solid fuel combusted communicates with the heating tank 22. It is discharged to the outside through, at this time to heat the cold water of the heating tank (22). The hot water of the heated heating tank 22 is discharged through the outlet pipe 12 and used for heating the building or supplying hot water for bathroom.

However, in the solid fuel supply device and the boiler using the same according to the related art, the communication 13 passing through the heating tank 22 is short, that is, the contact surface of the communication 13 through which cold water and the combustion gas of the heating tank 22 pass. The disadvantage is that the heat transfer efficiency transferred from the combustion gas to the cold water is small.

In addition, the ignition burner, the exhaust pipe, etc. are separately configured in the main body has a disadvantage that the maintenance is difficult.

In addition, since there is no configuration for additionally collecting ash and dust generated during the combustion process, there is a problem that a considerable amount is released into the atmosphere through the communication.

The present invention aims to provide a three-pass boiler using solid fuel that can maximize the thermal efficiency.

In addition, there is another object to provide a three-pass boiler using solid fuel that is easy to maintain the main parts integrally.

In addition, another object is to provide a three-pass boiler that can minimize the dust emitted to the atmosphere.

A three-pass boiler using solid fuel according to the present invention includes a boiler including a combustion chamber for burning solid fuel, comprising: first and second heating tanks; A first combustion gas pipe including at least one pipe passing through the first heating tank and configured to pass combustion gas combusted by the solid fuel; A spiral body spirally formed along an outer circumferential surface or an outer circumferential edge of at least a portion of the second heating tank to allow the combustion gas to flow downward in a spiral shape; And at least one tube penetrating the second heating tank in the spiral body, and may include a second combustion gas tube for discharging the combustion gas passing through the spiral body to the atmosphere.

The three-pass boiler using the solid fuel according to the present invention can maximize the thermal efficiency, can supply hot water quickly, and can heat more hot water with less fuel. In addition, the support frame, the ignition unit and the blower unit are integrally configured, and maintenance is very convenient. In addition, in the spiral body of the present invention, since the combustion gas has a cyclone shape and flows downward, the dust having a high specific gravity sinks downward, thereby minimizing dust emitted to the atmosphere.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors will properly describe the concept of terms in order to best explain their own design. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical ideas of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

3 is a perspective view of a three-pass boiler using a solid fuel according to an embodiment of the present invention, Figure 4 is a structural diagram of a three-pass boiler using a solid fuel according to an embodiment of the present invention.

The three-pass boiler using solid fuel according to an embodiment of the present invention is the body 110, the combustion chamber 111, the first heating tank 120, the second heating tank 121, the first combustion gas pipe 130 , The second combustion gas pipe 131, the spiral body 132, the fuel supply unit 150, the roaster 171, the ignition unit, the heat exchange unit 180, the blower 140, the ash support 173, the support frame ( 170).

The main body 110 is hermetically sealed, and a combustion chamber 111 is formed at one lower side of the inside, and a support frame 170 is formed at the combustion chamber 111, and an external one side of the combustion chamber 111 of the main body 110 is provided. The fuel supply unit 150 is configured. The support frame 170 is made of a material resistant to high temperature, the roaster 171 is installed on the inside of the support frame 170, the fireproof material 172 is formed by wrapping the inner surface of the support frame 170, I can endure it. The fuel supply unit 150 includes a fuel tank 151 containing a solid fuel 200 and a cylindrical fuel supply pipe 152, and one end of the fuel supply pipe 152 is connected to the fuel container 151. In the supply pipe 152, a screw 153 is configured to transfer the solid fuel 200 of the fuel supply cylinder 151 to the combustion chamber 111. The ignition unit is configured in the support frame 170, and an ignition coil 161 configured to generate a high temperature by electric energy is configured to ignite the solid fuel 200 supplied to the roaster 171, where the solid fuel 200 is Compression molded pellet fuel may be used. (The detailed structure of the ignition portion other than the ignition coil 161 is not shown.)

Cylindrical first and second heating tanks (120, 121) is configured inside the body, the first heating tank 120 is above the combustion chamber 111, the second heating tank 121 is the combustion chamber 111 Vertically located on one side not located. An inlet pipe 122 is connected to one side of the first heating tank 120, and an outlet pipe 124 is connected to one side of the second heating tank 121, and each of the heating tanks 120 and 121 is hydrodynamic. Is connected to the water flowing through the inlet pipe 122 is configured to flow through the heating tank (120, 121) to the outlet pipe 124.

The ash tray 173 is located under the combustion chamber 111 and the second heating tank 121 to collect ash and dust remaining after the solid fuel 200 is burned, and corresponds to the position of each ash tray 173. One side of the main body 111 to the opening and closing 112 is configured to collect the collected ash and dust.

5 is a structural diagram showing the structure of the second heating tank 121 and the spiral body 132 of the three-pass boiler using a solid fuel according to an embodiment of the present invention, the outer surface of the second heating tank 121 The main body 110 is spaced apart from the inner surface of the flow tube 133 formed in a cylindrical shape, between the spiral 132 is the inner surface of the second heating tank 121 and the outer side of the flow tube 133 In contact with the inner surface, it is composed of a spiral staircase shape that rotates and descends along a cylinder.

6 is a cross-sectional view of AA of a three-pass boiler using a solid fuel according to an embodiment of the present invention of Figure 4, Figure 6 is a three-pass boiler using a solid fuel according to an embodiment of the present invention of Figure 4 Sectional view of BB.

One end of the first combustion gas pipe 130 passes through the combustion chamber 111 to penetrate the first heating tank 120, and the second combustion gas pipe 131 penetrates through the second heating tank 121. Is configured to communicate with the heat exchange unit 180, the first combustion gas pipe 130 and the second combustion gas pipe 131 is hydrodynamically connected by the space by the spiral body 132.

The heat exchange part 180 is configured in the second combustion gas pipe 131 passing through the second heating tank 121, and the second combustion gas pipe flows through the plurality of pipes with the external air introduced through the plurality of inlets 181. Heated by the combustion gas discharged from 131, the heated external air is configured to be discharged through the discharge port (182). Since the structure of the heat exchanger 180 is only a well-known conventional technique, further description will be omitted.

The outlet 182 is connected by the air blower 140 and the air supply pipe 142 formed at one side of the combustion chamber 111, and the heated external air discharged through the air outlet 182 is supported by the air supply pipe 142. It is introduced into the blower 140 integrally formed with the frame (170). The heated external air introduced into the blower 140 is supplied to the combustion chamber 111, which is supplied to the side of the support frame 170 and the lower portion of the roaster 171 to help the combustion of the solid fuel 200. A fan 141 is formed in the blower 140, and the flow of external air introduced from the plurality of inlets 181 of the heat exchanger 180 and supplied to the combustion chamber 111 is a forced flow by the fan 141. .

Operation of the three-pass boiler using a solid fuel according to an embodiment of the present invention is as follows.

When the screw 153 is operated, the solid fuel 200 of the fuel container 151 is supplied to the roaster 171 of the combustion chamber 111 along the screw 153 and is ignited by the heated ignition coil 161 of the ignition unit. . The ignited solid fuel 200 is burned, and the generated high temperature combustion gas passes through the first combustion gas pipe 130. The combustion gas passing through the first combustion gas pipe 130 flows from the top to the bottom while enclosing the outer surface of the second heating tank 121 along the spiral body 132 installed on the outer surface of the second heating tank 121. Dust having a high specific gravity falls downward and is collected in the ash support 173 below the second heating tank 121. The combustion gas passing through the spiral body 132 flows into the second combustion gas pipe 131 and passes therethrough, and then is discharged to the outside through the communication unit 134 through the heat exchange unit 180. In the heat exchange unit 180, the external air introduced into the inlet 181 is heated by the combustion gas passing through the heat exchange unit 180, and the heated external air is blown through the outlet 182 and the air supply pipe 142. It is transferred to 140 and supplied to the combustion chamber 111.

Water introduced into the first and second heating tanks 120 and 121 through the inlet pipe is formed by hot combustion gas passing through the first combustion gas pipe 130, the spiral body 132, and the second combustion gas pipe 131. Heated and discharged through the water outlet pipe 123, the discharged hot water is used for heating or domestic hot water.

The ash remaining after the solid fuel 200 is burned is collected in the ash support 173 positioned under the combustion chamber 111 and the second heating tank 121, and the worker collects ash and dust collected through the opening 112. Can be collected.

In addition, the support frame 170 including the fireproof material 172 and the roaster 171, the ignition part and the blower 140 are integrally formed so that they can be easily separated from the combustion chamber 111 during maintenance and repair. It is convenient.

According to another embodiment of the present invention, the first heating tank 130 and the second heating tank 131 are hydrodynamically separated from each other, and each of the heating tanks 130 and 131 is independently of each other inlet and outlet pipes. Each may be provided to separately heat water.

Further, according to another embodiment of the present invention, one end of the second combustion gas pipe is directly connected to the first combustion gas pipe and the other end through the spiral side, the combustion gas is the first combustion gas pipe, the second combustion gas pipe and the spiral body Can flow in order of.

In the three-pass boiler using solid fuel according to an embodiment of the present invention, the water of each heating tank (120, 121) is the first combustion gas pipe 130, the outer surface of the second heating tank 121 and the second combustion gas pipe Heat in three steps through the 131, in particular, in the outer surface of the second heating tank 121 to allow the combustion gas flows through the spiral body 132 can heat the second heating tank 121 for a longer time. . In addition, by configuring the heat exchange unit 180 to heat the external air flowing into the combustion chamber 111, it is possible to further increase the temperature of the combustion gas. Therefore, since the thermal efficiency is very good, the water can be heated more effectively with the same amount of fuel as compared with the prior art.

In addition, since the dust generated in the combustion process is collected not only in the combustion chamber 111, but also in the lower portion of the second heating tank, it is possible to minimize the dust emitted to the atmosphere.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Various modifications and variations are possible within the equivalent scope of the utility model registration claims to be described.

1 is a block diagram of a solid fuel supply device and a boiler using the same according to the prior art,

Figure 2 is a cross-sectional view of A-A showing the communication with the heating tank of the solid fuel supply apparatus and the boiler according to the prior art of Figure 1,

3 is a perspective view of a three-pass boiler using a solid fuel according to an embodiment of the present invention,

4 is a structural diagram of a three-pass boiler using a solid fuel according to an embodiment of the present invention,

5 is a structural diagram showing a structure of a heating tank and a spiral body of a three-pass boiler using a solid fuel according to an embodiment of the present invention,

6 is a cross-sectional view of A-A of a three-pass boiler using a solid fuel according to an embodiment of the present invention of Figure 4, and

7 is a cross-sectional view of B-B of the three-pass boiler using a solid fuel according to an embodiment of the present invention of FIG.

<Description of main parts of drawing>

110: main body 111: combustion chamber

120: first heating tank 121: second heating tank

122: water pipe 123: water pipe

130: first combustion gas pipe 131: second combustion gas pipe

132: spiral body 133: flow tube

140: blower 150: fuel supply

161: ignition coil

170: support frame 171: roaster

180: heat exchanger

Claims (7)

A boiler comprising a combustion chamber for burning solid fuel, First and second heating tanks; A first combustion gas pipe including at least one pipe passing through the first heating tank and configured to pass combustion gas combusted by the solid fuel; A spiral body spirally formed along an outer circumferential surface or an outer circumferential edge of at least a portion of the second heating tank to allow the combustion gas to flow downward in a spiral shape; And A second combustion gas pipe including at least one pipe passing through the second heating tank in the spiral body and for discharging the combustion gas passing through the spiral body into the atmosphere; Three-pass boiler using a solid fuel containing. The method of claim 1, A fuel supply unit configured at one side of the combustion chamber, the fuel supply pipe configured to supply the solid fuel into the combustion chamber; A screw configured to transfer the solid fuel inside the fuel supply pipe; A roaster configured to be disposed under the combustion chamber and to be supplied with the solid fuel supplied thereto; And Ignition unit for igniting the supplied solid fuel Three-pass boiler using a solid fuel containing more. The method of claim 2, A heat exchanger connected to the second combustion gas pipe passing through the second heating tank, the inlet through which external air flows, and an outlet through which the external air heated by the combustion gas is discharged; And A blower connected to the discharge port and a supply pipe to supply the external air into the combustion chamber; Three-pass boiler using a solid fuel containing more. The method of claim 3, wherein 3. A three-pass boiler using solid fuel, characterized in that at least a portion of the inner surface of the combustion chamber is made of refractory material. The method of claim 4, wherein The support frame is configured to be spaced apart from the lower surface of the combustion chamber by a predetermined interval, the roaster is located on the inner side, and a fireproof material is formed on the inner surface Three-pass boiler using a solid fuel containing more. The method of claim 5, 3. The three-pass boiler using solid fuel, wherein the first heating tank and the second heating tank are hydrodynamically connected or independent. The method of claim 6, The three-pass boiler using a solid fuel, characterized in that the support frame, the ignition unit and the blowing unit is integrally configured.

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